CN112303390B

CN112303390B - Mammary gland ultrasonic system with supporting mechanism

Info

Publication number: CN112303390B
Application number: CN202010953347.3A
Authority: CN
Inventors: 周延
Original assignee: Jurong Medical Technology Hangzhou Co ltd
Current assignee: Jurong Medical Technology Hangzhou Co ltd
Priority date: 2020-09-11
Filing date: 2020-09-11
Publication date: 2022-02-22
Anticipated expiration: 2040-09-11
Also published as: CN112303390A

Abstract

The invention relates to the technical field of ultrasonic scanning, in particular to a mammary gland ultrasonic system with a supporting mechanism, which comprises a main body, a first display arranged on the main body, a supporting arm arranged on the main body, an ultrasonic scanning mechanism arranged on the supporting arm, a second display arranged on the supporting arm and a supporting mechanism, wherein the supporting mechanism is arranged on the main body; the support arm comprises a first rotating arm and a second rotating arm, one end of the first rotating arm is connected with the main body, and the other end of the first rotating arm is rotatably connected with the support mechanism; the supporting mechanism is connected with the second rotating arm, and the second rotating arm is connected with the ultrasonic scanning mechanism; the second display is arranged on the supporting mechanism, and the second display and the supporting mechanism can rotate around the first rotating arm integrally. The second display can rotate back and forth, so that good visual experience is provided for operators; the cable is led inside, and meanwhile, the safety of the cable is guaranteed in the process of rotating the second display.

Description

Mammary gland ultrasonic system with supporting mechanism

Technical Field

The invention relates to the technical field of ultrasonic scanning, in particular to a mammary gland ultrasonic system with a supporting mechanism.

Background

Mammary gland ultrasound is used as a supplementary detection method for X-ray molybdenum target detection, and plays an important role in screening and diagnosing mammary gland diseases. Most of the existing breast ultrasonic examinations are manual scanning examinations, which have the disadvantages of low speed and low efficiency, and have higher requirements on the manipulations and experiences of doctors. In order to solve the problem, a whole mammary gland ultrasonic system is provided, the system uses a mechanical scanning device to scan the whole breast of a tested person, and the requirement on a doctor manipulation is solved to a certain extent.

The patent with publication number CN109316207A discloses a breast ultrasound scanning system, which comprises a main body, a support arm installed on the main body, a second display fixed on the support arm, and an ultrasound scanning device fixed on the support arm, wherein a counterweight system of the support arm is arranged in the main body, a pressure sensor is arranged between the support arm and the counterweight system, or the ultrasound scanning device is provided with a pressure sensor; a displacement sensor is arranged between the support arm and the counterweight system; although the problem of selection of the compression force of different patients during mammary gland ultrasound can be solved, the appropriate compression force can be automatically adjusted, but the second display arranged on the support arm cannot rotate and swing.

Disclosure of Invention

The invention aims to solve the problem that a second display arranged on a support arm cannot rotate and swing in a breast ultrasound system in the prior art, and provides a breast ultrasound system with a support mechanism.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

a mammary gland ultrasonic system with a supporting mechanism comprises a main body, a first display arranged on the main body, a support arm arranged on the main body, an ultrasonic scanning mechanism arranged on the support arm, a second display arranged on the support arm and a supporting mechanism; the support arm comprises a first rotating arm and a second rotating arm, one end of the first rotating arm is connected with the main body, and the other end of the first rotating arm is rotatably connected with the support mechanism; the supporting mechanism is connected with the second rotating arm, and the second rotating arm is connected with the ultrasonic scanning mechanism; the second display is arranged on the supporting mechanism, and the second display and the supporting mechanism can rotate around the first rotating arm integrally.

Further, the supporting mechanism comprises a rotating head and a mounting seat; the tail end of the first rotating arm is provided with a shaft, and the rotating head is sleeved outside the shaft and is in rotating connection with the shaft; one end of the rotating head is abutted against the tail end of the first rotating arm, and the other end of the rotating head is connected with the mounting seat; the mounting seat is connected with the second rotating arm, and the second display is fixed on the mounting seat.

Further, one end of the shaft, which is far away from the first rotating arm, is positioned inside the rotating head and is connected with the fastening ring; the fastening ring comprises a first circular ring and a second circular ring which are perpendicular to each other, the first circular ring is connected with the end face of the shaft, and the second circular ring is arranged along the circumferential direction of the first circular ring and sleeved outside the shaft; the inner wall of the rotating head is provided with a circle of bulges; the bulge is positioned between the tail end of the first rotating arm and the second circular ring.

Furthermore, gaskets are arranged between the tail end of the first rotating arm and the protrusion and between the protrusion and the second circular ring.

Furthermore, the first rotating arm, the shaft, the mounting seat and the second rotating arm are communicated with each other to form a cable channel.

Furthermore, one end surface of the mounting seat is provided with a first boss connected with the rotating head, and the other end surface of the mounting seat is provided with a second boss connected with the second rotating arm; the first boss extends into the first rotating arm to be connected with the first rotating arm, and the second boss extends into the second rotating arm to be connected with the second rotating arm; the first rotating arm, the shaft, the first boss, the mounting seat, the second boss and the second rotating arm are communicated with each other.

Further, the first circular ring is positioned between the end surface of the shaft and the first boss; a first positioning pin is arranged on one surface, opposite to the first circular ring, of the first boss, and the part, extending out of the first boss, of the first positioning pin is located in a gap between the first boss and the first circular ring; a second positioning pin is arranged on one surface, opposite to the first boss, of the first circular ring, and the part, extending out of the first circular ring, of the second positioning pin is located in a gap between the first boss and the first circular ring; after the first positioning pin is blocked by the second positioning pin, the first boss stops rotating.

Furthermore, the circumferential wall surfaces of the first boss and the second boss are provided with threaded holes.

Furthermore, the other end face of the mounting seat is a detachable bottom cover, and the second boss is arranged on the bottom cover.

Furthermore, the mounting seat is also provided with a mounting through hole which is communicated with the inside of the mounting seat; the inside installation pedestal that is equipped with of mount pad, the second display is equipped with the hinge, and the hinge passes behind the installation passageway and is connected with the installation pedestal.

Compared with the prior art, the invention has the beneficial technical effects that:

(1) the second display can rotate back and forth, so that good visual experience is provided for operators;

(2) the invention realizes the internal cable running, and simultaneously ensures the safety of the cable in the rotating process of the second display;

(3) the second display is convenient to install, and meanwhile, the hinge of the second display can be hidden and fixed, so that the overall appearance is attractive.

(4) The supporting mechanism of the invention adopts a die-casting forming mode, thereby reducing the production cost.

Drawings

Fig. 1 is an overall structure diagram of a breast ultrasound system with a supporting mechanism according to the present embodiment;

FIG. 2 is an exploded view of the support mechanism of the present embodiment;

FIG. 3 is a schematic diagram of the supporting mechanism of the present embodiment connected to the first rotating arm;

FIG. 4 is an overall structure of the mounting base;

FIG. 5 is a view showing the internal structure of the mounting base;

fig. 6 is a bottom cover structure view of the mounting seat.

In the figure, 1 a main body, 2 a first display, 3 a second display, 4 support arms, 401 a lifting arm, 402 a rotating arm, 4021 a first rotating arm, 4021 a second rotating arm, 5 an ultrasonic scanning mechanism, 6 a universal joint mechanism, 7a supporting mechanism, 701 a mounting seat, 702 a bottom cover, 703 a rotating head, 704 a shaft, 705 a fastening ring, 7051 a first ring, 7052 a second ring, 706 a gasket, 707 a first boss, 708 a second boss, 709 a first positioning pin, 710 a second positioning pin, 711 a mounting through hole, 712 a mounting seat and 713 a hinge.

Detailed Description

The invention will be further described with reference to specific examples, but the scope of the invention is not limited thereto.

As shown in fig. 1-6, the breast ultrasound system with the supporting mechanism 7 of the present embodiment includes a main body 1, a first display 2 mounted on the main body 1, an arm 4 mounted on the main body 1, an ultrasound scanning mechanism 5 fixed on the arm 4, and a second display 3 fixed on the arm 4. The present embodiment further comprises a support mechanism 7. The support arm 4 includes a lifting arm 401 and a rotating arm 402, and the rotating arm 402 includes a first rotating arm 4021 and a second rotating arm 4022. The lifting arm 401 is disposed between the first rotating arm 4021 and the main body 1, and one end of the lifting arm 401 is connected to the main body 1, and the other end is connected to the first rotating arm 4021. One end of the first rotating arm 4021 is connected to the main body 1 through the lifting arm 401, and the other end is rotatably connected to the support mechanism 7. The support mechanism 7 is connected to the second rotary arm 4022, and the second rotary arm 4022 is connected to the ultrasonic scanning mechanism 5. The second display 3 is mounted to the support mechanism 7. The supporting mechanism 7 and the second display 3 are integrally rotatable around the first rotating arm 4021. The first monitor 2 is mounted to the main body 1 by a monitor arm 4. The main body 1 is internally provided with an ultrasonic host and a counterweight system of a support arm 4, the ultrasonic host can process ultrasonic signals collected by the ultrasonic scanning mechanism 5 to obtain images, the images are displayed on the first display 2 and the second display 3, and the whole ultrasonic detection process can be controlled according to the operation of function keys on the first display 2.

The first display 2 is used for displaying the scanning process and the completed image, and is provided with function keys, can adjust the information displayed by the image, can select the used imaging mode, adjust the TGC and input the patient information, and is a main interface for interaction between a doctor and the system. The second display 3 is used for facilitating the doctor to easily observe the image when operating the ultrasonic scanning structure so as to confirm that the ultrasonic probe is in good contact with the human body and is correctly placed. One end of the second rotating arm 4022 far from the supporting mechanism 7 is connected with a gimbal mechanism 6, and the gimbal mechanism 6 is connected with the ultrasonic scanning mechanism 5. The lift arm 401 has a lift function and is also rotatable with respect to the first rotating arm 4021. The first rotating arm 4021 can rotate relative to the lift arm 401 at the same time. The lift arm 401, the first rotating arm 4021, the second rotating arm 4022, and the gimbal mechanism 6 provide a user with an appropriate degree of freedom of operation. The lifting arm 401, the first rotating arm 4021, the second rotating arm 4022, and the gimbal mechanism 6 enable the ultrasonic scanning mechanism 5 to freely move and rotate in a preset interval. In addition, the supporting mechanism 7, the second display 3, the second rotating arm 4022, the gimbal mechanism 6 and the ultrasonic scanning mechanism 5 of this embodiment can rotate around the tail end of the first rotating arm 4021 as a whole, so that the second display 3 can rotate back and forth in a local small space region, and good visual experience is provided for an operator.

The support mechanism 7 includes a rotating head 703 and a mount 701. The tail end of the first rotating arm 4021 is provided with a shaft 704, and the rotating head 703 is sleeved outside the shaft 704 and rotatably connected with the shaft 704. One end of the rotating head 703 abuts against the tail end of the first rotating arm 4021, and the other end is connected to the mounting seat 701. The mounting base 701 and the second rotating arm 4022 are connected to the second display 3 and fixed to the mounting base 701. The rotary head 703 can rotate about the shaft 704 by applying an external force to the rotary head 703. Shaft 704 is fixedly connected to mounting base 701, mounting base 701 is fixedly connected to second rotating arm 4022, and second display 3 is fixed to mounting base 701. The rotary head 703, the mount 701, the second display 3, and the second rotary arm 4022 integrally rotate around the shaft 704. The end of the shaft 704 remote from the first rotary arm 4021 is located inside the rotary head 703 and is connected to a fastening ring 705. The fastening ring 705 includes a first circular ring 7051 and a second circular ring 7052 perpendicular to each other, the first circular ring 7051 is connected to an end surface of the shaft 704, and the second circular ring 7052 is disposed along a circumferential direction of the first circular ring 7051 and is sleeved outside the shaft 704. The inner wall of the rotating head 703 is provided with a circle of protrusions, and the protrusions are embedded between the tail end of the first rotating arm 4021 and the second ring 7052. The clamping force provided by the first rotating tail end and the second ring 7052 for the protrusion ensures the stability of the rotating head 703 in the rotating process along the shaft 704, and meanwhile, the clamping force is large enough to ensure the stability of the rotating head 703, the mounting seat 701, the second display 3, the second rotating arm 4022, the gimbal mechanism 6 and the whole ultrasonic scanning device rotating around the shaft 704. In order to reduce the friction between the rotating head 703 and the end of the first rotating arm 4 and the friction between the rotating head 703 and the second ring 7052 during the rotation of the rotating head 703, a certain gap is formed between the protrusions and the end of the first rotating arm 4 and between the protrusions and the second ring 7052. Gaskets 706 are arranged in a gap between the tail end of the first rotating arm 4021 and the protrusion and a gap between the protrusion and the second ring 7052.

The first rotating arm 4021, the shaft 704, the mount 701, and the second rotating arm 4022 communicate with each other to form a cable passage. The cable is hidden in the cable channel, internal wiring is realized, the cable is prevented from leaking outwards, and the cable shielding performance is good. The mounting seat 701 is hollow inside and provides an effective arrangement space for cables. The mount 701 has a first boss 707 connected to the rotating head 703 on one end surface, and a second boss 708 connected to the second rotating arm 4022 on the other end surface. The first boss 707 extends into the second rotating arm 4021 to be connected to the second rotating arm 4021, and the second boss 708 extends into the second rotating arm 4022 to be connected to the second rotating arm 4022. The first and

second bosses

707, 708 may both enable internal cabling. The interiors of first rotating arm 4021, shaft 704, first boss 707, mounting seat 701, second boss 708 and second rotating arm 4022 are sequentially communicated, and a cable in shaft 704 sequentially passes through first ring 7051 and first boss 707 and enters mounting seat 701. Cables within mount 701 pass through second boss 708 into second rotating arm 4022. The shape and size of the first boss 707 are adapted to the first rotating arm 4021. The shape and size of the second boss 708 are matched with the second rotating arm 4022.

The length of the shaft 704 is less than the length of the rotary head 703, and the portion of the rotary head 703 outside the shaft 704 is connected to the first protrusion. The fastening ring 705 is located within the rotary head 703 and the first circular ring 7051 is located between the end face of the shaft 704 and the first boss 707. The first boss 707 is provided with a first positioning pin 709 on a side facing the first ring 7051, and a portion of the first positioning pin 709 extending out of the first boss 707 is located in a gap between the first boss 707 and the first ring 7051. The surface of the first circular ring 7051 facing the first boss 707 is provided with a second positioning pin 710, and the part of the second positioning pin 710 extending out of the first circular ring 7051 is located in a gap between the first boss 707 and the first circular ring 7051. After the first positioning pin 709 is blocked by the second positioning pin 710, the first boss 707 stops rotating. The embodiment provides the first positioning pin 709 and the second positioning pin 710, so that the mounting seat 701 can only rotate 360 °. By restricting the rotation of the mounting seat 701, the cable in the cable channel can be prevented from being damaged due to random rotation.

The circumferential wall surfaces of the first boss 707 and the second boss 708 are provided with threaded holes. The wall surface of the first rotating arm 4021 opposite to the threaded hole of the first boss 707 is also provided with a threaded hole, so that the first boss 707 and the first rotating arm 4021 can be effectively connected and fixed. The wall surface of the second rotating arm 4022 opposite to the threaded hole of the second boss 708 is also provided with a threaded hole, so that the second boss 708 and the second rotating arm 4022 can be effectively connected and fixed. The other end face of the mounting seat 701 is a detachable bottom cover 702, and a second boss 708 is arranged on the bottom cover 702. Bottom cover 702 not only seals mount 701, but also facilitates connection of mount 701 with second pivot arm 4022. The bottom cover 702 and the mounting seat 701 are assembled together to shield the cable, so that the effects of attractiveness and tidiness are achieved.

The mounting seat 701 is further provided with a mounting through hole 711, and the mounting through hole 711 communicates with the inside of the mounting seat 701. The inside installation pedestal 712 that is equipped with of mount pad 701, second display 3 are equipped with hinge 713, and hinge 713 passes and is connected with installation pedestal 712 behind the installation passageway, makes things convenient for the installation of second display 3, makes second display 3's fixed comparison hidden simultaneously, makes the appearance more pleasing to the eye. The structure of the mounting seat 701 adopts a die-casting forming mode, so that the production cost is reduced, and meanwhile, the mounting seat is convenient to mount and attractive in appearance.

While the embodiments of the present invention have been described in detail, it will be apparent to those skilled in the art that variations may be made in the embodiments without departing from the spirit of the invention, and such variations are to be considered within the scope of the invention.

Claims

1. The utility model provides a mammary gland ultrasonic system with supporting mechanism, includes the main part, installs in the first display of main part and installs in the support arm of main part, install in the ultrasonic scanning mechanism of support arm and install in the second display of support arm, its characterized in that:

the device also comprises a supporting mechanism;

the support arm comprises a first rotating arm and a second rotating arm, one end of the first rotating arm is connected with the main body, and the other end of the first rotating arm is rotatably connected with the support mechanism; the supporting mechanism is connected with the second rotating arm, and the second rotating arm is connected with the ultrasonic scanning mechanism; the second display is arranged on the supporting mechanism, and the second display and the supporting mechanism can integrally rotate around the first rotating arm;

the supporting mechanism comprises a rotating head and a mounting seat; the tail end of the first rotating arm is provided with a shaft, and the rotating head is sleeved outside the shaft and is in rotating connection with the shaft; one end of the rotating head is abutted against the tail end of the first rotating arm, and the other end of the rotating head is connected with the mounting seat; the mounting seat is connected with the second rotating arm, and the second display is fixed on the mounting seat;

one end of the shaft, which is far away from the first rotating arm, is positioned in the rotating head and is connected with the fastening ring;

the fastening ring comprises a first circular ring and a second circular ring which are perpendicular to each other, the first circular ring is connected with the end face of the shaft, and the second circular ring is arranged along the circumferential direction of the first circular ring and sleeved outside the shaft; the inner wall of the rotating head is provided with a circle of bulges; the bulge is positioned between the tail end of the first rotating arm and the second circular ring;

gaskets are arranged between the tail end of the first rotating arm and the bulge and between the bulge and the second circular ring;

the first rotating arm, the shaft, the mounting seat and the second rotating arm are communicated with each other to form a cable channel;

one end surface of the mounting seat is provided with a first boss connected with the rotating head, and the other end surface of the mounting seat is provided with a second boss connected with the second rotating arm; the first boss extends into the first rotating arm to be connected with the first rotating arm, and the second boss extends into the second rotating arm to be connected with the second rotating arm; the first rotating arm, the shaft, the first boss, the mounting seat, the second boss and the second rotating arm are communicated with each other;

the first circular ring is positioned between the end surface of the shaft and the first boss; a first positioning pin is arranged on one surface, opposite to the first circular ring, of the first boss, and the part, extending out of the first boss, of the first positioning pin is located in a gap between the first boss and the first circular ring; a second positioning pin is arranged on one surface, opposite to the first boss, of the first circular ring, and the part, extending out of the first circular ring, of the second positioning pin is located in a gap between the first boss and the first circular ring; after the first positioning pin is blocked by the second positioning pin, the first boss stops rotating.

2. The breast ultrasound system with support mechanism of claim 1, wherein: the circumferential wall surfaces of the first boss and the second boss are provided with threaded holes.

3. The breast ultrasound system with support mechanism of claim 1, wherein: the other end face of the mounting seat is a detachable bottom cover, and the second boss is arranged on the bottom cover.

4. The breast ultrasound system with support mechanism of claim 3, wherein: the mounting seat is also provided with a mounting through hole which is communicated with the inside of the mounting seat; the inside installation pedestal that is equipped with of mount pad, the second display is equipped with the hinge, and the hinge passes behind the installation passageway and is connected with the installation pedestal.